The disclosure relates to an adapter for a quick-change system. The disclosure also relates to a quick-change system with such an adapter.
Quick-change systems consisting of a quick changer and a corresponding adapter are used for simple and convenient changing of different attachments on construction machines. For example, tilt buckets, grippers, claws, compressors, magnets, hydraulic hammers or other mechanical or hydraulic attachments can be connected to or disconnected from a boom of an excavator from a driver's cab in a few seconds with a high level of safety.
A generic quick-change system is known from DE 10 2018 128 479 A1. It has an adapter with two pin-like coupling elements arranged at a stipulated spacing from each other between parallel side walls for connection of the adapter to a quick changer. The quick changer belonging to the adapter contains claw-like first receptacles on one side for the first pin-like coupling element and second receptacles on the other side with two locking elements movable between an unlocking position and a locking position for releasable holding of the second coupling element. Since the attachments connectable with such a quick-change system generally lie on the ground before connection and must be moved for connection often above non-level or rocky ground, there is a hazard that parts of the adapter or quick changer are then damaged. For example, a protective cover provided on the adapter can be damaged relatively quickly during the changing and mounting of an attachment. Even when large parts of a concrete foundation or a boulder are picked up, especially in a backhoe bucket, the materials are supported against safety catch hooks or other protruding parts of the quick changers, which can lead to safety-related damage.
One aspect of the disclosure relates to an adapter and a quick-change system with such an adapter that offer improved protection against damage.
Expedient embodiments and advantageous refinements are also disclosed herein.
The two side walls in the adapter according to the disclosure project rearwardly with their rear ends relative to a back cover arranged between the side walls. Even if the attachments provided with such an adapter are positioned so that the rear ends of the side parts of the adapter come in contact with the ground, the back cover is protected by the projecting ends of the side walls. Damage to the back cover can thereby be avoided.
In a particularly expedient embodiment, the rear ends of the side walls also project relative to fastening elements with which the back cover is fastened to a crosspiece arranged between the side walls. The fastening elements are thereby also protected from damage.
The crosspiece arranged between the side walls serves not only to fasten the back cover, but also to ensure improved stability of the adapter. The crosspiece is expediently arranged in form-fitting fashion via end projections in corresponding recesses in the area of the back end of the side walls. Stable connection between the side walls and the crosspiece is thereby made possible.
In a further advantageous embodiment, the rear ends of the side walls have a recessed gradation on their underside. Crack formation during welding and corrosion problems can thereby be avoided.
One or more depressions or recesses can be expediently provided on the outside and/or inside of the side walls. Nameplates, safety warnings or also electronic components, for example, RFID charging systems, tool trackers, NFC chips, electronic transmitters and receivers, data carriers and the like can be accommodated protected from damage in these depressions or recesses. Corresponding depressions to accommodate electronic components can also be provided in the pin-like coupling elements, for example, on their ends. Openings to pass through safety belts, safety chains or other safety devices and flush with each other can also be arranged in the two side walls.
The back cover arranged between the two side walls can have at least one recess with further advantage. Access to the locking mechanism and a hydraulic unit of the adapter can be made possible via this recess. The recess is expediently arranged so that the operator acquires a view of the locking mechanism and can therefore visually check proper locking even in the mounted state. The back cover can be designed so that it is supported with its upper end on the pin-like rear coupling element. The back cover can have recesses or a gap on the bottom so that water or dirt can run off to the outside.
According to further advantageous embodiment, the two side walls protrude with their front ends relative to the front coupling element so that the ratio between the distance A from the front ends to the center of the front coupling element and the diameter D of the front coupling element is at least 1.25. The side parts therefore protrude with their front ends relative to the safety catches in their collapsed positions, and the safety catches are thus protected from damage from concrete slabs, rubble, boulders or other loads.
The disclosure also concerns a quick-change device that includes the adapter described above and a quick changer connectable to it.
Additional details and advantages of the disclosure are apparent from the following description of a preferred embodiment example with reference to the drawing. In the drawing:
An embodiment example of a quick-change system is shown in
The adapter 2, fastenable to an attachment and depicted separately in
The quick changer 1 depicted in a partial section in
In the depicted embodiment example, the quick changer 1 contains two receptacles 8 spaced apart from each other on one side of the support 7 for the front coupling element 4 and two receptacles 9 on the other side for the rear coupling element 5. The first receptacles 8 open to one side are designed claw-like or fork-like. The second receptacles 9 open downward to the other side of a curved lower support surface 10 to support the second pin-like coupling element 6. A locking device is provided on the second receptacles 9 with two pin-like locking elements 11 movable between an extended locking position and a retracted unlocking position. The two pin-like locking elements 11 are guided movable within support 7 and are movable by a cylinder between a retracted unlocking position for release or connection of the adapter 2 or an attachment and an extended locking position shown in
The support 7 contains two parallel side parts 12 on its top, in which through-holes 13 for fastening pins (not shown) are provided for fastening of the quick changer 1 to an excavator arm or a coupling of an excavator or a connection part of another construction vehicle.
In order to connect an attachment by means of quick changer 1, the quick changer 1, generally arranged on an excavator arm and a coupling of an excavator, is initially moved so that the front coupling element 4, arranged on the adapter 2 or directly on the attachment, is retracted into the claw-like or fork-like receptacles 8 on one side of the quick changer 1. The quick changer 1 is then pivoted about the front pin-like coupling element 4 with the locking elements 11 still retracted, so that the rear coupling element 5 on the adapter or attachment comes in contact with the support surfaces 10 of the downward open receptacles 9 on the other side of the quick changer 1. The locking elements 11 arranged movable in guide holes in support 7 of quick changer 1 can then be extended hydraulically, so that the rear pin-like coupling element 5 is engaged from below by the two locking elements 11 on the quick changer 1 and the attachment is therefore secured on the quick changer 1.
In order to prevent an attachment connected to the quick changer 1 from loosening from the quick changer 1 during an unintended loosening movement of the locking element 11 caused by incorrect operation or disturbances and then from falling down in a raised position of the quick changer, an additional catch device 14 is provided on support 2. The catch device 14 is conceived to grip the coupling element 4 arranged on the adapter 2 or attachment and engage with the first receptacles 8. The catch device 14 is designed so that an attachment is trapped in a catch position and held on the quick changer during unintended loosening from the coupling position by engagement of the coupling element 4.
In the depicted embodiment, the catch device 14 includes two separate safety catches 15 that are not arranged rigidly on the support 2 of the quick changer 1 but are coupled on support 1 pivotable about a transverse axis 16 via a type of hinge. The two safety catches 15 are arranged on the two rear receptacles 8 and designed so that they grasp the front coupling element 4 and the adapter 2 or an attachment and can trap the attachment in a catch position during unintended loosening of the quick changer 1 by engagement of the coupling element 4 on the safety catches 15. Because of the pivotable arrangement, the safety catches 15 can move between a disengaged receiving position and an engaged collapsed position depicted in
It is also apparent from
The safety catch 15 is designed so that it encloses the coupling element 4 semi-circularly by about 180°. Particularly secure holding in any position of the quick changer 1 can thereby be achieved. The receptacle 8 is then fully enclosed rearwardly by the safety catch 15 in the collapsed position of the safety catch 15.
The catch device 14 just described represents an additional safety device through which an attachment can be reliably secured and held even during unintended release of locking. The catch device 14 is independent of the locking device 11 and not connected to it.
As follows from
It is apparent from
The crosspiece 22 depicted in section in
A recess 29 to accommodate an identification mark in the form of a nameplate, a trademark emblem, a safety marking or the like is provided on the outside of side wall 3 of adapter 2. The marking is protected from damage in this recess 29. A recess 30 is also provided on the inside of side wall 3. Electronic components, for example, RFID charging systems, tool trackers, NFC chips, electronic transmitters and receivers, data carriers and the like can also be incorporated in this recess 30 or similar recesses. Even if the adapter 2 comes in contact with the ground with its side wall 3 during transport, the markings in recesses and depressions 29 or recesses 30 necessary for any safety instructions remain protected. Flush passages 31 are also arranged in the upper area of side walls 3. Safety belts, safety chains or other safety elements for transport or transport safety can be guided through these passages 31. An additional opening 32 is provided between the passage 6 for the coupling element 4 and the front end 18 in the side parts 3. Impacts acting on the front ends 18 of the side walls 3 can be cushioned via the openings 32 and the formation of burrs and sharp edges avoided. The hazard of cutting injuries can thereby be minimized. A recess 33 is arranged on the front of the pin-like coupling element.
As follows from
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10 2020 115 197.7 | Jun 2020 | DE | national |
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Entry |
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Result of Examination Report for German Patent Application No. 10 2020 115 197.7 dated Dec. 14, 2020. |
Number | Date | Country | |
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20210381192 A1 | Dec 2021 | US |